Method for fabricating a lateral RF MOS device with an non-diffusion source-backside connection

1. A method of forming a lateral RF MOS device for wireless communications with a non-diffusion source-substrate connection, starting from a substrate, said method comprising the steps of: providing a semiconductor substrate having a principal surface and being of a first conductivity type; growing an epi silicon layer on a top surface of said substrate, said epi layer having a first conductivity type; growing a field oxide layer on a top surface of said epi layer; forming a polysilicon gate; forming a plurality of gate channels; forming a plurality of drain regions and a plurality of source regions; forming a silicided layer on said polysilicon gate; and forming a plurality of metal contacts for connecting said plurality of gate channels, said plurality of drain regions and said plurality of source regions with an outside circuitry; wherein said formation of said silicided layer on said polysilicon gate results in said lateral RF MOS device being utilized for wireless communications.

2. A method of forming a lateral RF MOS device for wireless communications with a non-diffusion source-substrate connection, starting from a substrate, said method comprising the steps of: providing a semiconductor substrate having a principal surface and being of a first conductivity type; growing an epi silicon layer on a top surface of said substrate, said epi layer having a first conductivity type; growing a first layer of silicon dioxide; depositing a layer of silicon nitride; using a first mask to remove a part of said silicon nitride layer, to remove a part of said silicon dioxide layer, to mask an active device area and to form a field area; implanting boron P.sup.+ dopant in said open field area; performing said field area oxidation; forming a polysilicon gate; forming a plurality of gate channels; forming a plurality of drain regions and a plurality of source regions; forming a silicided layer on said polysilicon gate; and forming a plurality of metal contacts for connecting said plurality of gate channels, said plurality of drain regions and said plurality of source regions with an outside circuitry.

3. A method of forming a lateral RF MOS device with a non-diffusion source-substrate connection, starting from a substrate, said method comprising the steps of: providing a semiconductor substrate having a principal surface and being of a first conductivity type; growing an epi silicon layer on a top surface of said substrate, said epi layer having a first conductivity type; growing a field oxide layer on a top surface of said epi layer; removing a part of said silicon nitride layer and a part of said first oxide layer from said active area; growing a gate oxide layer in said active device area; making deposit of a polysilicon layer; using a second mask on said polysilicon layer to make a pattern gate structure; depositing a siliciding metal selected from the group consisting of platinum, cobalt, tungsten, and titanium; heating to form the metal silicide layer; removing the unsilicided metal; forming a plurality of gate channels; forming a plurality of drain regions and a plurality of source regions; forming a silicided layer on said polysilicon gate; and forming a plurality of metal contacts for connecting said plurality of gate channels, said plurality of drain regions and said plurality of source regions with an outside circuitry.

4. The method of claim 1, wherein a step of forming one said gate channel further comprises the steps of: making a third mask to prepare a third layer area of said epi layer for implanting P.sup.+ boron dopant; implanting P.sup.+ boron dopant into said third layer area of said epi layer to form a body contact region; making a fourth mask to prepare a fourth layer area of said epi layer for implanting P boron dopant; implanting P boron dopant into said fourth layer area of said epi layer to form a body region; and diffusing said body contact region and said body region to form a channel region under said gate.

5. The method of claim 1, wherein a step of forming one said drain region and one said source region further comprises the steps of: making a fifth mask to prepare a fifth layer area of said epi layer for implanting N phosphorous dopant; implanting N phosphorous dopant into said fifth layer area of said epi layer to form an enhanced drift region; making a sixth mask to prepare a sixth layer area of said epi layer for implanting N.sup.+ arsenic dopant; implanting N.sup.+ arsenic dopant into said sixth layer area of said epi layer to form one said drain region and one said source region; and diffusing said enhanced drift region, said source region and said drain region.

6. A method of forming a lateral RF MOS device with a non-diffusion source-substrate connection, starting from a substrate, said method comprising the steps of: providing a semiconductor substrate having a principal surface and being of a first conductivity type; growing an epi silicon layer on a top surface of said substrate, said epi layer having a first conductivity type; growing a field oxide layer on a top surface of said epi layer; forming a polysilicon gate; forming a plurality of gate channels; forming a plurality of drain regions and a plurality of source regions; forming a silicided layer on said polysilicon gate; depositing a first insulating layer to cover all said source regions, all said drain regions, and all said gate regions; opening said first insulating layer in contact areas to each said drain region, to each said gate region, and to each said source region by making a contact mask; using a trench mask to make a trench in said epi layer in order to connect each said source area to said substrate; making a first metal deposit in said trench; making a first metal mask to pattern a plug inside said trench and to form said plurality of metal contacts connected to each said drain and to each said gate; depositing a second insulating layer; and making a pad mask to open said second insulating layer to make connections between said plurality of metal contacts connected to each said drain and each said gate and said outside circuitry; whereby said lateral RF MOS device having an interdigitated gate structure is fabricated.

7. A method of forming a lateral RF MOS device with a non-diffusion source-substrate connection, starting from a substrate, said method comprising the steps of: providing a semiconductor substrate having a principal surface and being of a first conductivity type; growing an epi silicon layer on a top surface of said substrate, said epi layer having a first conductivity type; growing a field oxide layer on a top surface of said epi layer; forming a polysilicon gate; forming a plurality of gate channels; forming a plurality of drain regions and a plurality of source regions; forming a silicided layer on said polysilicon gate; depositing a first insulating layer to cover all said source regions, all said drain regions, and all said gate regions; opening said first insulating layer in contact areas to each said drain region, to each said gate region, and to each said source region by making a contact mask; using a trench mask to make a trench in said epi layer in order to connect each said source area to said substrate; making a first metal deposit; making a first metal mask to pattern a plug inside said trench and to form said plurality of metal contacts connected to each said drain and to each said gate; depositing a second insulating layer; making a via mask to each said contact region in each said drain region and in each said gate region; making a second metal deposit; making a second metal mask to pattern said plurality of metal contacts connected to each said drain and to each said gate; depositing a third insulating layer; and making a pad mask to open said third insulating layer to make connections between said plurality of metal contacts connected to each said drain and each said gate and said outside circuitry; whereby said lateral RF MOS device having a quasi-mesh structure is fabricated.